Venous Thrombosis CLINICAL VALIDITY - Centers for Disease ... [PDF]

individuals with a recurrent episode of deep venous thrombosis, how many will carry a factor. V Leiden mutation? The ove

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CLINICAL VALIDITY Question 18: How often is the test positive when the disorder is present (i.e. sensitivity)?

Question 19: How often is the test negative when the disorder is not present (i.e. specificity)?

Question 20: Are there methods to resolve clinical false positive results in a timely manner?

Question 21: What is the prevalence of the disorder in this setting?

Question 22: Has the test been adequately validated on all populations to which it may be

offered?

Question 23: What are the positive and negative predictive values?

Question 24: What are the genotype/phenotype relationships?

Question 25: What are the genetic, environmental or other modifiers?

CLINICAL VALIDITY

Question 18: How often is the test positive when the disorder is present (i.e. sensitivity)?

Question 19: How often is the test negative when the disorder is not present (i.e.

specificity)?

Summary Disorder/Setting • The specific clinical disorder is recurrent venous thrombosis in individuals with an inherited clotting disorder, and the setting for offering the DNA testing is a confirmed recent episode of deep venous thrombosis in adults (Questions 1 and 3). Factor V Leiden • Five studies satisfy the criteria of the present analysis for determining clinical sensitivity and specificity. • Clinical sensitivity of factor V Leiden testing answers the following question: For every 100 individuals with a recurrent episode of deep venous thrombosis, how many will carry a factor V Leiden mutation? • The overall clinical sensitivity is 28 percent, with a 95 percent CI of 12.9-34.6%. • Clinical false positive rate of factor V Leiden testing answers the following question: For every 100 individuals who do not experience a recurrent episode of deep venous thrombosis, how many will carry a factor V Leiden mutation? • The overall clinical false positive rate (1-specificity) is 19 percent, with a 95 percent CI of 14.1-26.7%. • The overall likelihood ratio for a recurrent episode of venous thrombosis among factor V Leiden carriers is 1.5. Prothrombin G20210A • Four studies satisfy the criteria of the present analysis for determining clinical sensitivity and specificity. • Clinical sensitivity of prothrombin G20210A testing answers the following question: For every 100 individuals with a recurrent episode of deep venous thrombosis, how many will carry a prothrombin G20210A mutation? • The overall clinical sensitivity is 11 percent, with a 95 percent CI of 6.2-21.1%.

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• Clinical false positive rate of prothrombin G20210A testing answers the following question: For every 100 individuals who do not experience a recurrent episode of deep venous thrombosis, how many will carry a prothrombin G20210A mutation? • The overall clinical false positive rate (1-specificity) is 6 percent, with a 95 percent CI of 5.66.8%. • The overall likelihood ratio for a recurrent episode of venous thrombosis among prothrombin G20210A carriers is 1.8.

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Introduction In order to answer Question 18 in this review, it is necessary to document factor V Leiden or prothrombin G20210A mutation status in a cohort of individuals with an initial episode of venous thrombosis and then follow the cohort for a period of time to determine who develops a recurrence. Selection criteria for including published studies in the present analysis require a mean of at least four years’ follow-up. Five studies satisfy these criteria for factor V Leiden, along with four studies for prothrombin G20210A. All of these studies include only Caucasians (both Hispanic and non-Hispanic). Rates are likely to be different for blacks (Question 22), as the prevalence of factor V Leiden is close to zero. Sensitivity and Specificity of Factor V Leiden Testing Question 18 asks how often a positive test for factor V Leiden (FVL) is associated with a recurrent episode of venous thrombosis among individuals who have been diagnosed with an initial episode. This defines the clinical sensitivity of a DNA test (see Appendix for description of 2 x 2 tables and the calculation of sensitivity and specificity). Figure 18-1 shows the mean clinical sensitivity and 95 percent confidence interval among the five selected studies. The confidence interval around the group estimate is calculated using the DerSimonian and Laird random effects model with an accompanying test of heterogeneity. According to the chi-square analysis, these studies are not statistically heterogeneous in their estimate of sensitivity. A total of 1637 individuals was followed for a minimum of 4 years, 385 of whom had a factor V Leiden mutation. The overall sensitivity of factor V Leiden mutation testing for predicting a recurrent episode of venous thrombosis in these studies is 28 percent. Table 18-1 shows the sizes of the individual studies, their respective sensitivities and the 95 percent confidence intervals. Details of the studies used for these calculations are in the Appendix. The Appendix also lists studies excluded from the present analyses because study subjects were not fully confirmed to have a first thrombotic event.

Sensitivity (%)

75

50

25

0 0

1

2

3

4

5

6

7

combined

Study Number Figure 18-1. Clinical Sensitivity of the Factor V Leiden Mutation Testing. Study reference numbers are from Table 18-1. The individual and overall mean sensitivities are

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shown as filled-in squares. Error bars are the 95 percent CI. The combined mean sensitivity is 28 percent (95 percent CI 13-35%). The chi-square for the test for heterogeneity is 3.43 and p > 0.05. Question 19 asks how often a positive test for factor V Leiden is not present among individuals who do not experience a recurrence of venous thrombosis. This defines the clinical specificity of each DNA test. This aspect of clinical test performance can also be expressed as the false positive rate, which is 1-specificity. The false positive rate contributes to understanding test performance by directly expressing how often a mutation will be found among individuals who will not experience a recurrence of venous thrombosis. The false positive rates are shown graphically in Figure 18-2 for the five factor V Leiden studies, and the data on which they are based are shown in Table 18-1. For the five factor V Leiden studies, the overall false positive rate, adjusted for heterogeneity, is 19 percent. The chi-square for the test of heterogeneity in these studies’ estimates of the false positive rate is significant, as shown (see Appendix for further discussion of heterogeneity). In addition, the sensitivity divided by the false positive rate gives the likelihood ratio. This is a useful estimate of the test’s power to alter pre-test probability of an outcome. The likelihood ratio for factor V Leiden testing is 1.5, as shown in Table 18-1. This means that individuals found to have a factor V Leiden mutation are one and a half-times more likely to experience a recurrence than would have been known in the absence of testing. This knowledge does not provide strong clinical guidance.

1- Specificity (%)

40

30

20

10

0 0

1

2

3

4

5

6 7 combined

Study Number Figure 18-2. Clinical False Positive Rate (1-Specificity) of the Factor V Leiden Mutation Among Individuals Who Will Not Experience a Recurrence. Study numbers are from Table 18-1. The individual and overall mean false positive rates are shown as filled-in squares. Error bars are the 95 percent CI. The combined mean false positive rate is 19 percent (95 percent CI 14-27%). The chi-square for the test for heterogeneity is 36.4 and p < 0.01.

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Table 18-1. Factor V Leiden -- Clinical Sensitivity, False Positive Rate (1-Specificity), and Likelihood Ratio (LR) for Identifying Recurrent Episodes of Deep Venous Thrombosis LR

36.4 (10.9-69.2)

False Positive Rate (95 percent (CI) 15.2 (7.5-26.1)

129

35.4 (23.9-48.2)

26.4 (22.1-31.0)

1.3

395

112

28.3 (20.5-37.3)

28.4 (23.1-34.1)

0.99

224

38

32.7 (20.7-46.7)

11.8 (7.4-17.7)

2.8

474

92

20.0 (11.6-30.8)

19.3 (15.5-23.5)

1.0

1637

385

28 (12.9-34.6 )

19 (14.1-26.7 )

1.5

Author

N

1. (Ridker et al., 1995) 2. (Lindmarker et al., 1999) 3. (De Stefano et al., 1999) 4. (Simioni et al., 2000) 5. Unpublished data LETS Overall

77

N with factor V Leiden 14

467

Sensitivity (95 percent CI)

2.4

Sensitivity and Specificity of Prothrombin G20210A Mutation Testing Figure 18-3 shows the mean clinical sensitivity and 95 percent confidence interval for the four selected studies of prothrombin G20210A mutation testing. The criteria for selecting these studies were identical to those for the factor V Leiden studies. The asymmetric confidence interval around the estimate for the group of studies is calculated using the DerSimonian and Laird random effects model with an accompanying test of heterogeneity. A total of 1326 individuals was followed for a minimum of 4 years, 95 of whom had a prothrombin G20210A mutation. The overall sensitivity of prothrombin G20210A mutation testing for predicting a recurrence in these studies is 11 percent. The chi-square for the test of heterogeneity in these studies’ estimates of the sensitivity is significant. Table 18-2 shows the size of the individual studies, their respective sensitivities and the 95 percent confidence intervals. Details of the studies used for these calculations are in the Appendix. The Appendix also lists studies excluded from the present analyses because study subjects were not fully confirmed to have a first thrombotic event.

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Sensitivity (%)

50 40 30 20 10 0 0

1

2

3

4

5 6 combined

Study Number Figure 18-3. Clinical Sensitivity of Prothrombin G20210A Mutation Testing. Study numbers are from Table 18-2. The individual and overall mean sensitivities are shown as filled-in squares. Error Bars are the 95 percent CI. The combined mean sensitivity is 11% (95% CI 6-21%). The chi-square for the test for heterogeneity is 23.3 and p

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